Trimming machine



1944- w. s. REYNOLDS TRIMMING MACHINE Filed June 3, 1941 14 Sheets-Sheet 1 f, lli

INVENTOR WARREN S. REYNOLDS A ORNEY Oct. 10, 1944. w. REYNOLDS TRIMMING MACHINE Filed June 3, 1941 14 Sheets-Sheet 2 INVENTOR WARREN S. REYNOLDS ATTORNEY Oct. 10,1944.

w. s. REYNOLDS TRIMMING MACHINE Filed J1me s, 1941 14 Sheets-Sheet 5 ATTORNEY Och-10, 1944. w. s. REYNOLDS 2,359,939

TRIMMING MACHINE Filed Jun s, 1941 14 Sheets$heet 4 fi Q 07mg x v p 1 )7 45 W 6 w .1 //l v INVENTOR 10/ 1 9 WARREN s REYNOLDS ATTORNEY Oct. 10, 1944. w s REYNOLDS 2,359,939

TRIMMING MACHINE Filed June 3, 1941 14 Sheets-Sheet 5 INVENTOR WARREN s. REYNOLDS ATTORNEY Oct. 10, 1944. w. s. REYNOLDS TRIMMING MACHINE Filed June 3, 1941 14 Sheets-Sheet 6 INVENTOR WARREN S. REYNOLDS N Mm km M ATTORNEY c&.. E@ w, s REYNOLDS 2,359,939

TRIMMING MACHINE Filed June 5, 1941 14 Sheets-Sheet 7 Oct, 1Q, 1944. w, s. REYNOLDS 2,359,939

TRIMMING MACHINE Filed June 3, 1941 14 Sheets-Sheet 8 jay 12 H8 Fifi/rams INVENTOR WARREN REYNOLDS Oct. 10, 1944. w, s. REYNOLDS 2,359,939

TRIMMING MACHINE Filed June 3, 1941 14 Sheets-Sheet 9 INVENTOR WARREN s. REYNOLDS ATTORNEY Oct. 10, 1944. w. s. REYNOLDS 2,359,939

' v TRIMMING MACHINE Filed June 5, 1941 14 Sheqts-Sfieet i0:

v INVEN R mugs s. zvuoms A2 OhNEY Oct. 10,' 1944. w. s. REYNOLDS 2,359,939

TRIMMING momma Filed June 3, 1941 14 Sheets-Sheet 11 m" Y 300 f 298 V Z m d Z73 J '20 1 33 4 m 287 INVENTOR 272 29/ WARREN s. REYNOLDS Z m .4 292 I I A ORNEY Oct. 10, 1944. w s REYNOLDS 2,359,939

TRIMMING MACHINE Filed June 3, 1941 14 Sheets-Sheet 12 lNVENTOR WARREN S REYNOLDS -w. s. REYNOLDS TRIMMING MACHINE Filed June 3, 1941 14 Sheets-Sheet 14 INVENTOR WARREN S. REYNOLDS A EORNEY I operations simultaneously upon several Patented Oct. 10, 1944 PATENT OFFICE 'rnnumNG MACHINE Warren S. Reynolds,

to Remington Arms tion of Delaware A plication June 3,

s Claims. (01. 29-38) This invention relates to of the metal-working variety. While it is here shown as performing. what may be generally termed turning operations, it is applicable to cutting-off and divers lustrative purposes, it is particularly for finishing both ends of ammunition componentssuch as cartridge blanks.

Although many metal-turning machines have been proposed heretofore most of these have been capable of operating upon only one end of a piece of work. Analogously, have been some chucking-machine perform added machining operations on previously partially completed individual pieces of product, these chucking machines were incapable of working upon both ends of such product. These past inadequate efforts also had the disadvantage of failing to provide good means to accuratelylocate work inthe work holders for the machining operations. Some of these prior proposals included automatic screw machines with even though there a plurality of work holders which, however, had

the disadvantage of rotating all of the work holders at all of the stations, even at the time of loading and unloadin work.

Objects oi the present invention are to provide an automatic machine 'capable'of: advantageously operating upon or machining both ends of pieces of product; accurately locating work in the machine for the machining operations to be 1 performed thereon; rotating predetermined work holders and not rotating others, so that work may vmore advantageously be located in the work hold- .ers (no marring and more accurate positioning) locating and rotating workwith both ends thereof exposed; exposing both ends of product being operated upon, so that an accurate and easy visual check may be made of the work at all times;

gently yet accurately positioning fragile or soft work in work holders; performing machining opmay be termed the inside erationsupon what I end of work;- advantageously performing divers pieces of work. s A

Novelfeatures of the present invention resulting'from the attainment of these objectives include the provision adapted to drop pieces of work accurately one by one into a loading station in time with the stepby-step operation offthe machine; mechanism to positively andvery accurately locate. and hold work within an open work holder until the latter I is closed thereon; work holders having gentle, ac- I I automatic machln other operations. In thev embodiment herein specifically disclosed for ilproposals, to

of selecting mechanism Company, Inc., a corpora- 1941, Serial No. 396,406

. curate, yet positive locating and gripping characteristics; structural arrangements to break the circuit to a prime mover or movers of the machine -in the event that work should ever become jammed at the loading station; simple and yet positive and effective indexing and locking mechanism for moving and maintaining a plurality of work holders in'a plurality of successive stations; mechanism for concurrently opening and closing several work holders at separate loading and unloading static mechanism associated with the loading mechanism for unloading or ejecting work; mechanism for supporting both ends of work'holders entirely clear of the main frame, to facilitate working or machining both ends of work therein; mechanism for performing one or more operations machine; novel machining apparatus for per- 20 forming operations advantageously on the ends of' work being handled by the machine; simple yet efiective apparatus for operating the divers machining instrumentalities.

of part of the aimin- 40 Fig. 8 is a longitudinal sectional view taken on line 8-8 of Fig. 'l. v v Fig. 9 is a fragmentary'side view, partially in section, of the selecting and loading mechanism. Fig. 10 is a fragmentary sectional view ofgthe v4l5'clrcuit breaker taken on line lO-ll of Fig.

. t Fig. 11 is a fragmentary sectional view of the I stop selector block, taken on line H--ll of Fig. 9

Fig. '12 is an to work-handling and work-holder-operating invstrumentalities at the loading and unloading stations.

Fig. 13 is a rear view of a work holder. 1 Fig. 14. is a. sectional view of the selecting and ceding mechanism, taken on line l'4-i 4 of Fig. 9.

on what might be termed the inside end of product being handled by the Other objects, features and advantages will,

Fig. 5 is a fragmentary view of a part of the Fig. is a front view oi e end-trimming and chamfering mechanism.

Fig. 16 is a fragmentary side view of the mechanism shown in Fig. 15.

.Fig. 17 is a fragmentary top view of the mechanism shown in Figs. 15 and 16.,

Fig. 18 is a front view of the rough-turning mechanism.

Figs. 25 and 26 show modified driving mecha- Y nisms.

Fig. 27 is a diagrammatic view, showing a m'odified form of drive for operating the'trimming and chamfering tool.

Fig. 28 is a diagrammatic view, showing a modifled form of drive for the rough-turning tool.

Fig. 29 is a diagrammatic view, showing a modified form of drive for the finish-turning tool;

Before describing the present improvements and mode of operation thereof in detail it should be understood that the invention is not limited to the details of construction and arrangement of parts shown in the accompanying drawings, which are merely illustrative of the present preferred embodiments, since the invention is capable of other embodiments, and the phraseology employed is for the purpose of description and not of limitation.

The specific embodiment of the v automatic.

machine provided by the present invention, and illustrated in the present drawings, includes a main frame 30, preferably including integral side walls 3i and 32, joining integral front, rear, top

and bottom walls 33, 34, 35 and 36, respectively.

whereby a large chamber '39 for enclosing many holder 48 includes a sleevelike inner member 4.

with an integral flange 49 secured to a pulley I. as by screws II. The inner member is provided with abore 52 accommodatinga conventional collet 53 of the normallyexpanded type which is adapted to be closed upon a piece of work 41 whenever an external taper 54 thereon is clamped, as-by'an internal taper '55 within a control member 58. The. latter is supported for axial movement by the outer periphery 51 of a flange ll thereon engaging and sliding within a bore I! of the inner member 48. A suitable spline connection isprovided between inner member 4| and control member 58 to prevent relative turnsleeve 48 and the other end engaging with the outwardly extending flange 58-01 the control member 58 serves to normally close the expansible collet 53. Flange nut 8| has a threaded connection 62 with the outer or front portion of the inner member 48 to lock the inner races of two sets of ball bearings to face 83 of the inner member 48 which is securedto the pulley It.

Outer races 84 of the two ball bearings I! are gripped and held within a suitable bore 88 of carrier head 61 as by screws 88 and 68 squeezing plates 68' and 68' at opposite sides of the bearings 65 toward each other. The latter structure prevents axial movement of the work'holder 46 in. the carrier head 81.

The two spaced ball bearings 65' provide a in the pulley (see Figs. 12 and '13). Normally I the conditioning fingers H are moved in a counterclockwise direction, as seen in Fig. 12, to move the outer and longer parts of the pivoted fingers toward the rear of the machine as by the coil of theoperating mechanisms of the machine may be provided. The large side wall openings 31 and 38 also facilitate internal assembly of the machine, and may be readilyclosed by plates 31' and 38', respectively, held in place as by screws 40.

Integral with main frame 30, or secured, thereto as by screws 4|. there 'is preferably provided an overhanging arm 42 and underlying arm 43 with a tie plate 44 therebetween. Preferably, and as shown, the main frame may have conventional machine legs 45 bolted to the underside thereof, or made integral with the main frame 30 to support the latter a predetermined or desired extent from the floor. v

Csnmn m WORK Hotness." It should be' particularly noted that the present invention provides a novel work-handling mecha- 'indetail; however, it should be understood that each of the plurality of work holders is substantially alike. To this end, attention is directed spring 59 urging the control member it toward normally eggpand so that the work opening ll therein is enlarged to permit ready removal and entry of work. A simple spring ll, secured to the rear face of the inner member 4|. as by a screw 18', servesto maintain the collet It in its forward 'axial position during retraction of the control member 58 as by engaging the rear end of the collet 53, as may be seen clearly in Figs. 12 and 13. Rotation of the collet 53 with the inner member 48 and pulley 50 is assured through the provision of a pin 11 forced intothe control member ll in the collet BI.

with a projecting end entering a suitable keyway Of particular importance, the plurality of work holders 48,-fiv'e in the present preferred showing.

, away from the outer or r of a rotatable drive cured to an intermediate shaft 82.

' roller successively enters drive index plate 81 and are all mounted in a single carrier head 81, and

the carrier head is located and supported in suitthat front and rear portions 48 are fully spaced externally front wall 33 of the main frame 88, as may be seen best in Figs. 1, 3, 10 and 12. To this end, the present invention provides a sturdy carrier shaft 28 suitably mounted in bearings 18 and 88 in front and rear walls 88 and 84, respectively, of the main frame 88. The carrier shaft may be mounted for rotation directly in bearings bored in the front and rear walls 83 and 34, but is preferably, and as shown, mounted in suitable conventional ball bearings 18 and 88. Further, it is supported against longitudinal movement by any of the conventional and well-known struct al arrangements for this purpose. The carrie head 81 is held against rotation on the carrier shaft 28 as by a spline connection 8|, and is held against longitudinal movement thereon by a shoulder 82, nut 83 and washer 84 at the outer and front end of the carrier shaft 28. v

INDEXING AND LOCKING MECHANISMS Indexing and locking of the carrier head 81 and the associated work holders 48 therein successively into a loading station A, trimming and chaznfering station B, rough-turning station 0, flnish-tuming station D (said stations B, C and D hereinafter sometimes referred to as machining stations) and into unloading station E is efficiently and positively effected .by an indexing mechanism 85 and locking mechanism 88, as may be seen best in'Figs. 3 through 6.

The indexing mechanism 85 is of the Geneva type and includes a slotted generally circular plate 81 suitably secured to the carrier shaft 28, said plate being provided with a plurality of drive slots 88 equal in number to the quantity of work holders 48 provided in the carrier head 81 (five in the present instance) to accommodate a drive roller 88 pivotally mounted upon a stud 88 arm 8| suitably indirectly seable mechanism so of the work holders 8| is preferably secured to a 84 which in turn meshes This drive arm gear 88 as by screws with and is driven by a 18 (see Fig. 4) Thus, as the main shaft 18 is rotated, by means hereinafter described, the gear 88 meshes with and rotates gear 83 to move drive arm 8| and roller 88 thereon in a counterclockwise direction as viewed in Fig. 4, whereupon the slots 88 at the station F and moves the plate carrier head 81 72 degrees, whereupon the roller leaves the slot in the station G as shown in Fig. 4. The index plate 81; and associated carrier head 81 remain in the indexed position all of the time that the roller 88 and drive arm 8| rotate from the position shown in Fig. 4 until the roller en ters the next successive slot 88 at station F, During this interval loading, unloading'and machining instrumentalities hereinafter described in detail operate upon the work 41 in the work holdera 48.

a1 and associated k 5 determined length of I88 tobemovedin a gear 85 on the main shaft The locking mechanism as for maintaining the associated wo'rk holders 48 in in the present preferred form as best shown in 'Figs. v3, 4 and 6, includes a housing 88 suitably secured to rear wall 84 (see m. 6). The housing is provided with a generally vertically extending channel 81 to accommodate a plunger 88, which is held therein by a top plate 88 suitably secured to the housing 88 successive stations,

(Figs. 4 and 6). The plunger 88 is preferably provided with a bore I88 accommodating one end of a coil spring I8I while the other end of the coil spring is socketed in an adjustment screw I82 threaded into an upstanding lug I83 on the housing 88 (Figs. 4 and 6). A plurality of notches I84 are provided in the periphery of the index plate 81 intermediate the drive slots 88. These notches I84 are equal in number to the drive slots 88 and holders 48 in the carrier head 81 and are intended to accommodate the upper end of the plunger 88. They are preferably provided with at least one angular wall I85 so that the plunger 88 IN tendsto complete arcuate movement of the index plate 81 into its proper indexed position, should the roller- 88 become worn or otherwise fail to move the index plate far enough arcuately.

Mechanism for synchronizing movement of the locking plunger 88 into as the drive roller 88 and drive arm 8| leave the index plate 81 at the station G, to'maintain the index plate and associated holders 48 sturdily in the stations A through E for a pretime, and until the drive roller 88 of drive arm 8| begins to enter a successive drive slot 88 and the index plate 81 and associated work holders 48 arcuately into a successive station, includes a bell crank I88 pivotally mounted upon a stud I81 suitably secured to a projection I88 with an upper finger I88 thereof extendingjnto a suitable substantially horizontal clearance channel III! in housing 88 for engagement with,a suitable stud III on the plunger 88. The bell crank I88 also includes an a roller I I8 engaging a connection with main best in Fig. The cam receding wall I cam II4 having a suitable shaft 18 as may be seen H4 is provided with a lobe H5 and I8 adapted to allow the bell crank clockwise direction as viewed influence of the coil spring allow the plunger 88 to in Fig. 4 under the I8I and to concurrently enter one of the notches I84 81 as the drive roller the index plate at station G. This same cam is also provided with a riser section I I1 extending to the lobe. I I8 adapted to move-and maintain the bell crank I88 in its counterclockwise position whereupon the upper finger I88 engaging stud III moves the plunger 88 against the pressure of the coil spring I8I until the upper end thereof is entirely clear of the index plate 81 as the drive roller 88 on drive arm 8| enters a successive drive slot 88 at station F whereby the index plate 81 is again free for arcuate movement.

WORK-HOLDER CONIlITIONING MECHANISM It should beparticularly noted that the present invention provides mechanism for automatically conditioning the work holders; that is, causing the same to hold or to release work therein, and to concurrently effect such conditioning in two stations, via, the loading station A and the unloading station E.

For this purpose the present inventionprovides a pair of sleeves H8 and H8, at stations A and E, mounted for reciprocating movement preferably In suitable bearings H8 and |I8 in front wall 33. These sleeves are preferably providedwith flangelike heads I28 and I28" and rings I2I and I2I' with the latter adapted to overlie, engage and operate fingers II of work holders 48. In the latter connection, the rings as it is forced therein by spring successive notches I84 begins to again move integral lower finger II: with.

in the index plate 88 and drive arm 8| leave I2I and I2I' engage the outer ends of the fingers II whenthe sleeves H8 and H8 are moved to the left as'viewed in Fig. 12, thereby moving' the .outer ends'oi 'the fingers II to the right as viewed in Fig. .12, whereupon the collet 53 is released in the manner hereinbefore described in detail. Similarly, the fingers 'II are released and the control members 58 '(at stations A and E) are allowed to move toward the left under the influence of the springs 59 to tighten collets 53 whenever the sleeves H8 and H8 are moved to the "retracted position shown in Fig., 12. It preferred, the rings I2I and I2I' may be mad integral with the sleeves H8 and H8.

Concurrent operation of the sleeves H8 and H8 is eflected by tie block I22 as by having split bores I23 and I24 with clamping screws I25.

Automatic operation '01" said sleeves H8 and H8 for conditioning the work holders 48, concurrently with the indexing oi the work holders as hereinbefore described in detail, is effected through the provision of a lever I28 pivotally mounted upon-a stud I21 in a suitable standard I28 suitably secured to or integral with front wall 33 .(Flgs. 3, "7 and 12). This lever at its upper end has a pin-and-slot connection I29 with the tie block I22 and at its lower end has a roller I39 engaging a facev cam I3I suitably secured to main shaft 18. A coil spring I32 extending between and having suitable pin connections with the lever I28, and standard I28 is provided to maintain the roller I38 inoperative engagement with the face cam I3I and thereby to also normally urge the sleeves H8 and H8 into'the retracted position shown in Fig. '12.

High lobe I33 on cam I3I serves to move the lever I26 about the stud I21 in a counterclockwise direction and thereby moves sleeves I I8 and H8 (or rings I2I and I2I') into engagement with work holders 48 in stations A and E to release the work holders. Receding and low sections I34 and-I35, respectively, on cam I3I allow spring I32 to move the lever I28 in a clockwise direction whereupon sleeves H8 and H8 are cleared of fingers II and thereby allow internal taper 55 of control member 56 under influence of spring 59 to close collets 53 to grip and hold work 41.

Suzanne, Fnnnmc AND Locsrmo Mscmlm'sms' 50 In order to intermittently feed and locate 'successive pieces of work 41 intowork holders 48 at the loading station A, the present invention provides a novel feeding mechanism I38 inc1udof the indexing mechanism 85.

Selecting-mechanism The selecting mechanism I31 (Figs. 1, 2, 9, '11

I and 14) includes an inlet tube I39.extending generally downwardly and forwardly of'the mai chine. This tube may beloaded by hand with a successive series of pieces of work, with -fianges I40 thereon leading; or. may be loaded automatically by a, suitable and conventional hopper '(not shownlsu'pported on a standard I from the top of the frame 38, which hopper-may be operated by an individualmotor 'or by a belt 7 J42 driven f om a pulley I43 at the rearmost end ofthefdrive shait 353. The lower end the tube I39'extends into a housing I44 having 9.

channel I45 coaxial with bores in work holderstube I39 may be welded or otherwise suitably secured to the arm 42 and housing I44.

A detent arm I41 is pivotally mounted upon a mary detent I49 at'the upper end thereof and a secondary detent I50 at the lower end thereof with both, of said detents passing through suitable adjacent apertures at the top of the tube I39.' The detent arm I41 is normally maintained in its most clockwise position shown in Fig. 9 as by a spring I5I, in which position the 1 primary detent I49 is movedv into engagement with the lower end of a piece of work 41 in the tube I39. However, as the detent arm I" is moved in a counterclockwise direction, as viewed in Fig. 9, against tension of spring I5I secondary detent I50 is moved from a, position clear of bore I39 and tube I99 to a position within the tube, while the primary detent I49 is moved toan inoperative position relative to the bore I39 and work therein whereupon the piece of work which the primary detent previously held drops downwardly in the tube with the leading end thereof engaging secondary detent I59.

Preferably the primary detent' is in the form' 80 of a plunger I52 backed by a spring I53 and having its downward movement limited by a screw extension I54 and nuts I 55 (Fig. 9) which enables the primary detent I49 to hold a piece of work until the secondary'detent I58 is in its operative-position within the tube I39, before the primary detent moves into its inoperative position clear of tube I39, and conversely to move down into engagement with a piece of work before the secondary detent I is again moved 40 clear of the bore I39. The detent arm H1 is provided with art integral control arm I58 all suitably pivoted on stud I48, while said control arm has a suitable spring connection I51 with a pusher rod I58 having a slidable connection with a suitable bore I59 in bracket I88. The spring connection I5'I includes a suitable bore I 8| 0! larger diameter than the pusher rod I58 in,

the lower, end of the control arm I58 with a head I82 on said rod I58 engaging one side of the arm while a washer I83, spring I84 and collar I65 at the opposite side thereof serve to maintain the head in engagement with the arm I58.

1 As the, pusher rod I58 is positioned either manually, or automatically as described shortly, the springand-collar-backed washer I 83 moves the-control arm I58 and integral detent arm .I4I in a counterclockwise direction, whereupon the primary detent I49 is moved to the inoperative 80 position, free of the bore I39 of the-tube I39 and work 41 therein, sothat the piece of work which the primary detent had been holding drops downwardly through the tube into engagement with the secondaryv detent'l58. As the pusher rod I58 is released, the control arm I" and integral detent arm I" are rotated in aoiockwise direction whereupon the primary detent I49 engages the next succeeding piece of work as shown in Fig. 1, which is held in this position longitudinally oi the tube I39 by the piece of work 41 being held by the secondary detent I53 until the secondary detent is free 01' the bo'rei39' oithe tube I39 to allow the piece of work which it was holding todrop" into the channel I45 of the. housing I44 with the flange end-.I4l thereoi"extend-' stud I48 extending to arm 42 and includes a pri- 'at loading station A ing toward the front of the machine and with nose I66 thereof pointing toward the rear of the machine as may be seen best in Fig. 9.

Feeding (or loading) mechanism Feeding mechanism I36 for moving successive pieces of work 41 from the channel I45 into work holders 46 as the latter successively arrive includes a ram I61 mounted for free axial movement in suitable bores I68 and I69 in the bracket support I69 and tie plate 44. The ram I61 preferably includes an inner sleeve I19 and associated outer sleeve "I with the inner sleeve locatable and slidable within a bore I12 of the outer sleeve as may be seen best in Fig. 9. A rod I13 is secured to the inner sleeve I19 as by a pin I14 and is provided with a coil spring I15 extending to a plug I16 at the front of the outer sleeve Hi. This plug is provided with a bore I11 adapted to slidably accommodate the front end of the rod I13. The spring I15 is of suflicient length and compression to normally axially spread the innerand outer sleeves apart until a flange I18 on the inner sleeve I19 engages a shoulder I19 within. the outer sleeve I1I. The inner sleeve is I89 having a shank I8I secured thereto as by a 12in I82 with a tip adapted to slide into a usual percussion caphole in the work 41.

By moving the outer sleeve "I to the right as viewed in Fig. 9 the spring I15 which in turn pushes the inner sleeve I19 and head I89 into engagement with head I84 of the work 41 to force the same axially of the channel I45 in the housing I44 into work holder 46 at the loading station A.

Movement of the outer sleeve Ill, and in' fact the entire ram I61, preferably includes a lever I85 of the first class, pivotally mounted upon a stud I86 in a bracket I81 on the tie plate 44, with the upper end thereof having a suitable pin-andslot connection I88 to a finger I89 screwed upon the rear end of the outer sleeve HI and tightened thereon in suitable location as by a transverse screw I99. The lower end of the lever I85 is provided with a suitable roller connection I9I adapted to-enter a. slot I92 of a channeled or drum cam I93 suitably secured to main shaft 18 forwardly and externally of the main frame 39 adjacent the tie plate 44. I

As the main shaft 18 and the cam I93 thereon rotate the channel I92 through the nection I9I' moves the lever I85 in a clockwise direction so that the upper end thereof through the pin-and-slot connection I88 and associated mechanism moves the ram I61 to the right, and the work 41 from the channel I45 into the work holder 46, until finger I89 engages a stop screw I94 on'the bracket I69 as shown by dot-anddash linesin Fig. 9.

Locating mechanism Locating mechanism I38 (Figs. 3, 'z and 12 particularly) is also provided to cooperate with thefeedingmech'anism I36 for the purpose of acroller conalso provided with a head the plug I16 pushes against I adjustment of the ram I61 with respect to the cam I93 may be accomplished as by the screw connection I89 and by suitably affixing the cam I93 at divers slightly different places on the main shaft 18.

The-locating mechanism also preferably includes a'plunger I95 (Figs. 3 and 12) slidable within a bore I96 of a'locator rod I91 with axial movement thereof limited by a pin-and-slot connection I98. A light spring I99 (lighter in pressure than spring I15) is provided with one end thereof engaging a bottom of bore I96 and with the other end thereof engaging the back of the plunger I95. The rod is mounted for axial and slidable movement in a bore 299 of the sleeve II8, as may be seen best in preferably also in a suitable bore 29I in a lug 292 depending from the top 35 of the main frame 39. Movement of the locator rod I91 and plunger I95 to the left, from the inoperative position shown in Fig. 12 into engagement with nose I66 of work 41 in the channel I45 or as such work is being pushed into the work holder 46 at the station A as by ram I61, is effected by a lever 293, of

the first class, axially mounted on a stud 294 v a rearwardly extending standard I28 secured to the front wall 33 of the main frame 39. This lever 293 has a pin-andslot connection 295 including a stud 296, block .291 and slot 298' at its upper end, and a roller 299 at its lower end engaging and riding upon a face cam 2I9 suitably secured to main shaft 18.

The lever 293 is urged in a clockwise direction against the face cam 2I9 2I I connected to the lever 293 at one end and to the standard I28 at its other end. The lever 293 at its upper end and through the pin-and-slot connection 295 is associated with a tie-bar .2I2 secured to the locator rod I91 as by a split bore 2I3 and bolts 2I4. High lobe 2I5 on the face can 2I9 is arranged to move the locator rod I91 and plunger I95 to the left, preferably at about the time that the ram I61 begins to push the work 41 from the channel I45 into the work holder 46 so that plunger I95 cooperates with the tip I83 and the head I89 of the ram I61 to centralize and carry work relative to the work holder at the station A.

Concurrently .with the travel of the ram I61 to the right and toward the final loading position (see Figs. 3 and 9) the face cam 2I9 through the suitably secured to lever 293 and pin-and-slot connection 295 moves I91 and plunger I95 to the left as viewed in Fig; 12. However, the plunger I95 is in effect ahead of the ram I61 so that there is a gripping action between the plunger I95 and head I89. Because the spring I99 is lighter in pressure than the spring I15 the plunger I95 yields for variations in length of the work so that the head I84 of work is always accurately spaced and held relative to the work holders during clamping of the work holders. The

the locator rod mechanism just described in considerable detail effectively and accurately locates work in work holders at the loading station A.

In the'event that work jams anywhere at or between the housing m and work holder 46 at with the means to limit the extent to which the I94 which limits the extent sleeve I19. However, ram inner sleeve I19 and head the loading station A outer sleeve I" may still be moved in the normal manner by lever I and may travel a great extent relative to the inner I61, and particularly I89, will not be harmfully pushed against the jammed work since the coil spring I15 and plug I16 allow the inner sleeve I19 and head I89 'thereon to stop when Fig. 12, and I as by a coil spring bevelled point 2I6 of the the same enga e iammed work while the outer sleeve I1 I under the influence of the lever I85 ineffectively rides over the inner sleeve I18.

Sam! Swrrcn Optionally, and preferably,- the present invention includes a safety switch 2" adapted to cut out the prime v mover whenever work is jammed in the machine (Figs. 9, and 24), including a normally closed switch upon a collar 2l8 secured to the forward end of outer sleeve I'H as by screws '2l8. A bell crank 228 is pivotally mounted on a stud 22! in aslot 222 in the collar H8 and has a downwardly extending finger 228 resting upon a bevel 224, of the rod "8 with a horizontally extending fln'ger 228 engaging actuating plunger 228 of the switch 2 II. The latter may be any conventional micro switch requiring relatively small movement for actua- Umoanma Mzcmmsm Concurrently with the loading of work at the station A as just described in considerable detail, unloading of finished work is effected at station E with a simple yet very effective mechanism including an ejector rod 288 having an axially slidable connection with a bore 28l in sleeve I I8 at station E and with a bore 282 in lug 288 on standard I28 (Fig. 12). i'I'he ejector rod 288 is secured to a suitable split bore 284 in tie-bar 2l2 as by screws 288 for concurrent movement with the said bar "2| 2. Thus, as the tie-bar 2| 2 is moved by the lever 288 as hereinbefore described in detail in connection with the operation of said barand lever for controlling thelocator plunger I88 and rod I81 at the loading station A the elector rod 288 is concurrently moved to the left as viewed in F18. 12 into engagement with nose I88 ever, it will be appreciated that other machines;

within the purview or this invention'may be made with more or fewer stations. Those shown here- 'in', foriliustrative include end-trimming and chamfering 281 at station B.xrough-turning mechanism 288 at station C, and mechanism 288' at station D. j

. sad-mini turized eminent r "mend-trimming and ohamferingmecha'nism cured to a 3m (rigs. m and 18)}, At its. upper end-the tool'earrierarm ssnzsup om a slide-242 preferably having a tongue-and-groove connection 248. The slide 2821s channel 244 to receive a tool bit 2 8.

The latter p tion,

vided with a is longitudinally adjusted in the channel as by a screw 248'and is securely held in. the adjusted position by a pair of clamping screws 241. A bolt 248 threaded into the'carrier arm 248 and 5 having a flange 248 overlying the tongue of the tongue-'and-groove connection 248 serves to locate and maintain tool bit 248 longitudinally relative to the nose I88 of work 41 in a work holder 48 to effectively and accurately trim it to length. Q After the slide 242 is longitudinally positioned in the desired station by the single bolt 248 it may be securely'clamped to the carrier arm 24!! as by screws 288 extending downwardly through suitably elongated slots in the slide to suitable threaded holes in the carrier arm 248. A pocket 8 or recess 2 is provided in the front wall 88 of the main frame 80 to accommodate the tool carrier arm 248, and a chamfering tool 282 about v .;;to be described, so that trimming and chamfering ZOfiQiay' -be efiected readily between the carrier head 8land the front wall 88 of the main frame 80.

The chamfering tool 282 includes a block 258 integral with or, as shown, secured as with screws 284 on front wall 88 within recess 25L This block 5 is provided with a stud 288 upon which a tool carrier 288 is pivotally mounted. This carrier 258 is provided with a channel 281 in which a tool-bit 288 maybesecu'rely held as by a clamping plate 288 and'bolt 288 (Fig. 15). Longitudinal setting and maintaining of the tool bit 288 in said channel 281 may 'be effected by a set screw 28L Normally the carrier 288 is maintained in the dot-and dash-line position 282 shown in Fig. 16 against-stop 288 as by coil spring 284 in or- '35 der to maintain tool blt 288 entirely clear of nose I88 on work 41 as work holders 48 with work therein are moved from loading station A to machining station 13. Movement of the chamfering tool bit 288 into the operative position shown in 9 Fig. 16 after-a work holder is moved into station A is efl'ec ed by arcuate movement of tool carrier arm 24 from the dot-and-dash line position 288 to the solid-line'position shown in Fig. 15, for as the tool' carrier arm'248 moves in a counterclockwise direction it-engages a stud 288'. on chamfering tool carrier 288 to sweep the latter in a clockwise direction against the tension of spring 284 as viewed in Fig. 16'until the tool the arrangement of these entalities is such that the end-trimming tool 248 has completed its trimming operation prior to the time. the chamfering tool .bit 288 completes its chamfe'ring operation. v Movement of the tool bits-248 and 288 throu h f the carrierarm 248' andtool carrier 288 is effected by 'a cam28'lon intermediate shaft 82 en a in aroller 288'on an arm 288secured to' This cam 18'!- the tool-operating shaft 28!.

imparts limited'arcuate movement to thearin 288 whereupon the attached tool-operating shaft 7 248and 288 into outof operative position A coil spring 218 '1 nected-to the arm 288st one end and to another :arm 2'" serves'to move the end-trimming tool bit :u' nrasso imaensmiei-ini tool m 288.. ".in one direction relativejto the workwhile the to fmovethem in anotherdirec-.

cam 281 serves l I man-amusement g Th rough-turning u e ani'neiuoes a bracket 212 secured to the'front wall 88 of the bit 288 is within the bore of work 41. Preferably 2'4| ,through' the arm 248 and tool-car rier 288, in themanner hereinbefore describedin detail. mov'ee the 001 

